Cerebral Hemispheres 2
NEUROSCIENTIFICALLY CHALLENGED

NEUROSCIENCE MADE SIMPLER

Know your brain: Prefrontal cortex


Where is the prefrontal cortex?

The prefrontal cortex is the section of the frontal cortex that lies at the very front of the brain, in front of the premotor cortex.

The prefrontal cortex can be divided into several subregions. The method of anatomically subdividing the prefrontal cortex varies depending on the source, but common demarcations include the dorsolateral, dorsomedial, ventrolateral, ventromedial, and orbitofrontal regions.


What is the prefrontal cortex and what does it do?

The prefrontal cortex makes up over 10% of the volume of the brain, and thus is involved in many functions—more than can be summarized in a short article. There is one category of cognition, however, that the prefrontal cortex is probably best known for: executive function.

The term executive function is defined slightly differently depending on where you find the definition. In general, executive functions focus on controlling short-sighted, reflexive behaviors to take part in things like planning, decision-making, problem-solving, self-control, and acting with long-term goals in mind. They are higher-level cognitive processes that people tend to display greater proficiency in than other animals—thus you could argue they are some of the functions that truly help to make human cognition unique.

Patients who suffer damage confined to the prefrontal cortex often display normal movement, sensory perception, and even intelligence. But they frequently experience deficits in executive functions, along with personality changes, abnormalities in emotional responses, and general difficulty functioning in their daily lives.

Watch this 2-Minute Neuroscience video to learn more about the prefrontal cortex.

The prototypical case of prefrontal cortex damage is Phineas Gage. Gage was a railroad foreman in the mid-1800s who somehow survived having a metal rod shot clear through his skull and brain during a work-related accident. Much of Gage's left frontal lobe and prefrontal cortex were destroyed. It has been suggested that Gage was a responsible, temperate, hard-working man before his accident and afterwards he became a capricious, irreverent, trouble-making drifter. According to this account, he seemed to have lost some of the ability to inhibit base impulses and was unable to act prudently—the types of changes we might see in someone who had a deficit in executive functions. The exact changes in Gage's personality, however, are now somewhat debated, and it is unclear if the damage he sustained was confined to the prefrontal (or even frontal) cortex.

Even if we don't use Gage's case as a main piece of evidence to link the prefrontal cortex to executive functions, however, there are still a number of other case studies and a great deal of experimental evidence to support the connection. Patients with prefrontal cortex damage tend to perform poorly on tasks that require the use of long-term strategies and the inhibition of impulses. They also often display short-term memory deficits, which may help to explain some of their difficulties in planning.

Patients with prefrontal cortex damage can experience blunted emotional responses, which may be another factor that negatively affects their ability to make decisions. To understand how this works, just imagine the emotional reaction you might have to thinking about doing something you know is a bad idea—like cursing out your boss at work when you're angry. Really giving some consideration to doing this might cause you to get a bit anxious, and because this emotion doesn't feel good, it can help you make the (probably wise) decision to avoid the behavior. Patients with damage to the prefrontal cortex sometimes display abnormalities in experiencing these types of emotional responses, which then presumably makes it more difficult for them to make good decisions.

As I mentioned, a large region like the prefrontal cortex that has such dense interconnections to other areas of the brain undoubtedly has many functions (some known and some not yet known) beyond what I've mentioned here. Additionally, some argue that the category of executive functions is too broad to tie to one region of the brain. Regardless, it is often implied that the prefrontal cortex contributes a great deal to making us who we are as individuals. According to this perspective, if you took away the prefrontal cortex we would be ruled by our desires and impulses, lacking an ability to plan for the future or think about the consequences of our actions.


References (in addition to linked text above):

Olson CR, Colby CL. 2000. The Organization of Cognition. In: Kandel ER, Schwartz JH, Jessell TM, eds. Principles of Neural Science, 5th ed. New York: McGraw-Hill.

Petrides M and Pandya DN. The Frontal Cortex. In: Mai JK and Paxinos G, eds. The Human Nervous System. 3rd ed. New York: Elsevier; 2012.

YOUR BRAIN, EXPLAINED

Sleep. Memory. Pleasure. Fear. Language. We experience these things every day, but how do our brains create them? Your Brain, Explained is a personal tour around your gray matter. Building on neuroscientist Marc Dingman’s popular YouTube series, 2-Minute Neuroscience, this is a friendly, engaging introduction to the human brain and its quirks using real-life examples and Dingman’s own, hand-drawn illustrations.

  • An informative, accessible and engaging book for anyone who has even the slightest interest in how the brain works, but doesn’t know where to begin. - Dean Burnett, PhD, author, Happy Brain and Idiot Brain

  • Dingman weaves classic studies with modern research into easily digestible sections, to provide an excellent primer on the rapidly advancing field of neuroscience. - Moheb Costandi, author, Neuroplasticity and 50 Human Brain Ideas You Really Need to Know

  • ...a highly readable and accessible introduction to the operation of the brain and current issues in neuroscience... a wonderful introduction to the field. - Frank Amthor, PhD, Professor of Psychology, The University of Alabama at Birmingham, author, Neuroscience for Dummies

  • Reading like a collection of detective stories, Your Brain, Explained combines classic cases in the history of neurology with findings stemming from the latest techniques used to probe the brain’s secrets. - Stanley Finger, PhD, Professor Emeritus of Psychological & Brain Sciences, Washington University (St. Louis), author, Origins of Neuroscience

BIZARRE

This book shows a whole other side of how brains work by examining the most unusual behavior to emerge from the human brain. In it, you'll meet a woman who is afraid to take a shower because she fears her body will slip down the drain, a man who is convinced he is a cat, a woman who compulsively snacks on cigarette ashes, and many other unusual cases. As uncommon as they are, each of these cases has something important to teach us about everyday brain function.

  • Through case studies of both exceptional people as well as those with disorders, Bizarre takes us on a fascinating journey in which we learn more about what is going on in our skull. - William J. Ray, PhD, Emeritus Professor of Psychology, The Pennsylvania State University, author, Abnormal Psychology

  • Dingman brings the history of neuroscience back to life and weaves in contemporary ideas seamlessly. Readers will come along for the ride of a really interesting read and accidentally learn some neuroscience along the way. - Erin Kirschmann, PhD, Associate Professor of Psychology & Counseling, Immaculata University

  • A unique combination of storytelling and scientific explanation that appeals to the brain novice, the trained neuroscientist, and everyone in between. Dingman explores some of the most fascinating and mysterious expressions of human behavior in a style that is case study, dramatic novel, and introductory textbook all rolled into one. - Alison Kreisler, PhD, Neuroscience Instructor, California State University, San Marcos

  • Bizarre is a collection of stories of how the brain can create zombies, cult members, extra limbs, instant musicians, and overnight accents, to name a few of the mind-scratching cases. After reading this book, you will walk away with a greater appreciation for this bizarre organ. If you are a fan of Oliver Sacks' books, you're certain to be a fan of Dingman's Bizarre. - Allison M. Wilck, PhD, Researcher and Assistant Professor of Psychology, Eastern Mennonite University